Interchangeable click rings

ABSTRACT

The system of interchangeable click ring for the entire creation of assembled rings. 
     The entire ring already assembled is composed by one fixed interchangeable part (shank) (FIG.  1 ) and an ornamental part, an interchangeable one, too. 
     The system is realized trough a mechanism that links an interchangeable element called male element (shank) opened in the overlooking part (FIG.  2/1 ) and with different sections (FIG.  1/3 ) with definite mechanical characteristics which can generate a countless number of releases and assemblages on one part of the mechanism inclusive of all the grooves called female (FIG.  4 ), and using the elastic proprieties both of the metal and connate to the shape and development of the shank.

BACKGROUND OF THE INVENTION

1. Field of the Invention

This invention concerns the jewellery industry since it deals with rings with an innovative mechanism, which allow, with a simple pressure, to interchange the ornamental part so that it fixes itself in a safe way on the open shank, completing the ring in all its parts.

2. Description of the Prior Art

The previous mechanisms have a series of problems as reported in the U.S. Pat. No. 6,715,314 to which we fully and precisely associate: all the patents reported.

As for the mechanism estimated in the above-mentioned patent, it turns out to be complicated and lacking a necessary simplicity to be used by the final consumer; the use of the same one predicts a typical manual ability of those who work in the sector of jewellery, but who's not always present in the final user.

SUMMARY OF THE INVENTION

The system of interchangeable click ring for the entire creation of assembled rings.

The entire ring already assembled is composed by one fixed interchangeable part (shank) (FIG. 1) and an ornamental part, an interchangeable one, too.

The system is realized trough a mechanism that links an interchangeable element called male element (shank) opened in the overlooking part (FIG. 2) and with different sections (FIG. 3) with definite mechanical characteristics which can generate a countless number of releases and assemblages on one part of the mechanism inclusive of all the grooves called female (FIG. 4), and using the elastic proprieties both of the metal and connate to the shape and development of the shank.

BRIEF DESCRIPTIONS OF THE DRAWINGS

FIG. 1) The shank of the ring, specifications of the section which allow the shank to always get back in the starting position; an asymmetrical characteristic V that perfectly fits in the ornamental part to be fit.

FIG. 2) Modular shank and ornamental part taken apart

FIG. 3) Modular shank and ornamental part set

FIG. 4) Method of fitting in of the ornamental part on the shank

FIG. 5) Flexion and reversion of the shank once fit in the ornamental part

FIG. 6) Section of the male and female mechanism stuck

DETAILED DESCRIPTION—FIGS. 1 THROUGH 6—PREFERRED EMBODIMENT

-   A. The system of the jewel is composed as follows: A) a shank     (FIG. 1) which surrounds the finger for four fifth with vertical     sides, opened in the upper part with two elements of asymmetric V     (FIG. 4/3) which constitute the male of the mechanism of assembly,     which is able to bend and to go off inside of the grooves of the     female mechanism contained in the ornamental part (FIG. 6/2), thanks     to the chink. The shank (FIG. 1) presents a narrower section in the     final part (that is in the span) and a larger one in the lower part     of the shank, this, allows to exalt the elastic characteristics of     the metal that always goes back to the initial position (FIG. 5).     Another element which gives efficacy to the mechanism is given by     the most internal side of the final V (FIG. 6/2) of the shank which     ends under the female element in a special bigger seat bigger than     the piece itself; this causes that the upper part of the final V of     the shank is always in tension holding back in a steady way the     female ornamental piece (FIG. 5). B) The interchangeable ornamental     element of the ring as visual reference has inclined sides towards     the interior in accordance with the same inclination of the V     elements of the shank but with a wider distance between the sides     compared to the opening of the shank, gives the possibility to the     vertical shank of gliding along a suitable groove of gliding,     positioning one of the two ends of the shank in the notch of arrival     and making the other end glide along the side till the attainment of     the corresponding opposite notch (FIG. 5). Obviously, the shank     while gliding is in a state of tension till it reaches the crack     notch going back to the rest position or better of reduced tension.     The shank develops itself around an ideal circle interrupted in the     upper part to create the mechanism and which reshapes itself again     when the ornamental part fits in becoming the final part which     reshapes the circle (FIG. 4). The shape and the different sections     of the shank always make the shank tend to get back to the circular     state even if the final sides of the opening are forced towards the     exterior. The ornamental element (female) may have a double external     track (optional) at the gliding canal to facilitate the assembly. -   B. The unique and innovative characteristic is the fact that the     shank of the ring is not closed but has got an open part and this     has never been used, with the wrong belief that an open ring     couldn't be safe enough, actually, in the manufacture of the model     of this patent, it follows that this model is extremely safe, as     without forcing on one side of the ring it's not possible to remove     the ornamental element. Moreover, such shape of the shank allows to     completely hide the mechanism which therefore turns out to be     invisible, as it perfectly reproduces the shape that the ring would     have if the two elements of the composition were joined together in     a unique body. -   C. The two pieces of the ring are completely separated one from the     other and present in the joint placed at the end of the shank and in     the external side of the ornamental element, two mirror shapes that     assure the tightness and stability of the ring, once it is     assembled. -   D. The inclination angle equal or similar between the sides of the     mechanism of the shank and the sides with the crack (notch) of the     female ornamental element allows the shank to glide along the side     of the ornamental element in tension, that is, forcing the shank,     till the achievement of the notch (crack) positioned in the lateral     side of the female element, reaching which, the male element finding     an emptied space goes off in the seat in a steady way. -   E. The element of the shank which fits in the notch or seat of the     ornamental female element presents a parallel side to the side of     the female element and it is just the side where happens the gliding     (the above preceding point) and another side which is on the     contrary perpendicular to the other one; this to prevent the coming     out of the piece once it reaches the release crack. -   F. To allow the coming out of the ornamental female piece again for     its replacement with another ornamental piece, it will be necessary     to force the shank on one side as far as letting it coming out from     the notch of seat in the female one. -   G. The shank has a larger section in the lower part, and so a     greater resistance just in such a point to allow it in order to flex     in the openings always going back to the circular position thanks to     the greater traction of the lower part of the shank. -   H. The uniqueness of the patent is also given by the fact that we     have a ring composed by two separate elements, one of which is fixed     and another interchangeable of all the possible shapes, keeping     identical the mechanism of assemblage, in which a part constitutes     the three quarters of the circle and the ornamental element the last     quarter. Thus, once assembled the eye will perceive only a unique     circle without being able to see the mechanism.

ADVANTAGES

The advantages of our claim are: a) give a exchange of the elements easily usable by anyone b) having an absolutely invisible mechanism once composed the ring c) total absence of security mechanisms visible from outside d) absolute security of the item e) longevity of the ring being able to always fit in ornamental parts d) low costs of the rings that can get a completely different appearance by only replacing the ornamental part e) simplicity in the exchange of the ornamental elements which can be done in a few seconds f) possibility of selling the ornamental elements of the shanks in a separated way. 

1) An interchangeable click ring in which the shank of the ring is not closed but has got an open part. The system of the jewel is composed as follows: a shank which surrounds the finger for four fifth with vertical sides, opened in the upper part with two elements of asymmetric V which constitute the male of the mechanism of assembly, which is able to bend and to go off inside of the grooves of the female mechanism contained in the ornamental part, thanks to the chink. The shank presents a narrower section in the final part (that is in the span) and a larger one in the lower part of the shank, this, allows to exalt the elastic characteristics of the metal that always goes back to the initial position. Another element which gives efficacy to the mechanism is given by the most internal side of the final V of the shank which ends under the female element in a special bigger seat bigger than the piece itself; this causes that the upper part of the final V of the shank is always in tension holding back in a steady way the female ornamental piece. The two pieces of the ring are completely separated one from the other and present in the joint placed at the end of the shank and in the external side of the ornamental element, two mirror shapes that assure the tightness and stability of the ring, once it is assembled. 2) Any shape of the interchangeable part of the ring, to exemplify but not exhaustive: the globe shaped, the cubical, the parallelepiped, the pyramidal, with semi-precious stones or without them and with enamel 3) Any joint also with an insertion part and the other one to be jointed. 